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Suppose I have a map m: Map[Any, Int]. Now I would like to take only entries (String, Int) from m and create a new map m1: Map[String, Int] with those entries.

I am trying to do the following:

val m1: Map[String, Int] = m collect {case e:(String, Int) => e}

It seems working but I get a warning: non variable type-argument String in type pattern (String, Int) is unchecked since it is eliminated by erasure.

How can I get rid of the warning?

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3 Answers

up vote 7 down vote accepted

you probably want:

val m1: Map[String, Int] = m collect {case (k:String, v:Int) => k->v}
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1  
Or even e @ (_: String, _: Int) => e, I think. –  Daniel C. Sobral Apr 24 '12 at 16:08
    
@DanielC.Sobral that gives a type mismatch in REPL, but interestingly follows with this: "Note: Any >: String, but trait Map is invariant in type A. You may wish to investigate a wildcard type such as _ >: String" –  virtualeyes Apr 24 '12 at 16:30
    
Oh, I see. e will only be the (String, Int) elements, but its type won't change. –  Daniel C. Sobral Apr 24 '12 at 16:48
    
Just for completeness m collect {case e @ (_:String, _:Int) => e.asInstanceOf[(String,Int)]} if you want to go that route. It's a bit more verbose but doesn't have the tuple unboxing/reboxing cost. –  rxg Apr 24 '12 at 19:17
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(Just for reference. What you want is virtualeyes’s answer.)

val m1: Map[String, Int] = m flatMap { e =>
  e._1 match {
    case e1: String => Some(e1 -> e._2)
    case _ => None
  }
}
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Careful testing will show that your solution actually matches everything in the map, not just entries of type (String,Int). The warning from the compiler is telling you that the types of your match will be thrown away at runtime so your code is actually doing something like this:

val m1: Map[String, Int] = m collect {case e:Tuple2[Any,Any] => e.asInstanceOf[Tuple2[String,Int]]}

And the asInstanceOf call will not blow up since it only casts to a Tuple2 and the (String,Int) bit gets lost again because of erasure. You'll get a nasty failure when you try to iterate against the result though ...

Try this in the REPL

  val m:Map[String,Int] = Map("2" -> 3, 3 -> 4, "6" -> 10) collect {case e:(String, Int) => e}
  // Oops, thought we would get '2'
  m size 
  // Nothing wrong with this code except m contains some
  // hidden nasties which causes us to blow up
  for ((s:String, i:Int) <- m) yield s.length + i 

`

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